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Posted

I have been reading about how dipoles produce an inverse cube law. The sad thing is that I can't find any maths behind it. Am I reading a crackpot theory? If not could someone post the maths or give a link to the maths?

Posted

The cube is correct for a dipole, I confirm.

 

Remember this is for a static field or slowly varying. If the charges, currents... vary significantly within one propagation time between the poles, then you obtain a part as a propagating field which decreases less quickly.

Posted

Coming back to this topic, why would Gauss's law still be valid if Coulomb's was replaced by an inverse cube law?

 

It wouldn't be. Consider a spherically symmetric scenario — the law works because the flux drops off as r^2 and so does the surface area of a sphere. That's not the case for an inverse-cube relation. IOW, E.dA is not a constant — it varies with r.

Posted

If the dipole consists of two finite charges with finite separation, each feels a force as 1/R2 from a distant one. In that sense, Coulomb's law still applies.

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